blob: 11f7783b50a2673afad7e60b2cb6f8c8309fc131 [file] [log] [blame]
// Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
// @dart = 2.9
import "dart:developer";
import 'dart:io' show Platform;
import 'package:front_end/src/api_prototype/compiler_options.dart';
import 'package:front_end/src/api_prototype/experimental_flags.dart';
import 'package:front_end/src/fasta/kernel/utils.dart';
import 'package:kernel/kernel.dart'
show Component, Library, LibraryPart, Reference;
import 'incremental_suite.dart' as helper;
import "incremental_utils.dart" as util;
main(List<String> args) async {
bool fast = false;
bool useExperimentalInvalidation = false;
bool addDebugBreaks = false;
int limit = -1;
for (String arg in args) {
if (arg == "--fast") {
fast = true;
} else if (arg == "--experimental") {
useExperimentalInvalidation = true;
} else if (arg == "--addDebugBreaks") {
addDebugBreaks = true;
} else if (arg.startsWith("--limit=")) {
limit = int.parse(arg.substring("--limit=".length));
} else {
throw "Unsupported argument: $arg";
}
}
Dart2jsTester dart2jsTester = new Dart2jsTester(
useExperimentalInvalidation, fast, addDebugBreaks, limit);
await dart2jsTester.test();
}
class Dart2jsTester {
final bool useExperimentalInvalidation;
final bool fast;
final bool addDebugBreaks;
final int limit;
Stopwatch stopwatch = new Stopwatch();
List<int> firstCompileData;
Map<Uri, List<int>> libToData;
List<Uri> uris;
List<Uri> diffs = <Uri>[];
Set<Uri> componentUris = new Set<Uri>();
Dart2jsTester(this.useExperimentalInvalidation, this.fast,
this.addDebugBreaks, this.limit);
void test() async {
helper.TestIncrementalCompiler compiler = await setup();
if (addDebugBreaks) {
debugger();
}
diffs = <Uri>[];
componentUris = new Set<Uri>();
Stopwatch localStopwatch = new Stopwatch()..start();
int recompiles = 0;
for (int i = 0; i < uris.length; i++) {
if (limit >= 0 && limit < i) break;
recompiles++;
Uri uri = uris[i];
await step(uri, i, compiler, localStopwatch);
}
print("A total of ${diffs.length} diffs:");
for (Uri uri in diffs) {
print(" - $uri");
}
print("Done after ${recompiles} recompiles in "
"${stopwatch.elapsedMilliseconds} ms");
}
Future step(Uri uri, int i, helper.TestIncrementalCompiler compiler,
Stopwatch localStopwatch) async {
print("Invalidating $uri ($i)");
compiler.invalidate(uri);
localStopwatch.reset();
Component c2 = await compiler.computeDelta(fullComponent: true);
print("Recompiled in ${localStopwatch.elapsedMilliseconds} ms");
print("invalidatedImportUrisForTesting: "
"${compiler.invalidatedImportUrisForTesting}");
print("rebuildBodiesCount: ${compiler.rebuildBodiesCount}");
localStopwatch.reset();
Set<Uri> thisUris = new Set<Uri>.from(c2.libraries.map((l) => l.importUri));
if (componentUris.isNotEmpty) {
Set<Uri> diffUris = {};
diffUris.addAll(thisUris.difference(componentUris));
diffUris.addAll(componentUris.difference(thisUris));
if (diffUris.isNotEmpty) {
print("Diffs for this compile: $diffUris");
}
}
componentUris.clear();
componentUris.addAll(thisUris);
if (fast) {
print("Got ${c2.libraries.length} libraries");
c2.libraries.sort((l1, l2) {
return "${l1.fileUri}".compareTo("${l2.fileUri}");
});
c2.problemsAsJson?.sort();
c2.computeCanonicalNames();
int foundCount = 0;
for (Library library in c2.libraries) {
Set<Uri> uris = new Set<Uri>();
uris.add(library.importUri);
for (LibraryPart part in library.parts) {
Uri uri = library.importUri.resolve(part.partUri);
uris.add(uri);
}
if (!uris.contains(uri)) continue;
foundCount++;
library.additionalExports.sort((Reference r1, Reference r2) {
return "${r1.canonicalName}".compareTo("${r2.canonicalName}");
});
library.problemsAsJson?.sort();
List<int> libSerialized =
serializeComponent(c2, filter: (l) => l == library);
if (!isEqual(libToData[library.importUri], libSerialized)) {
print("=====");
print("=====");
print("=====");
print("Notice diff on $uri ($i)!");
libToData[library.importUri] = libSerialized;
diffs.add(uri);
print("=====");
print("=====");
print("=====");
}
}
if (foundCount != 1) {
throw "Expected to find $uri, but it $foundCount times.";
}
print("Serialized library in ${localStopwatch.elapsedMilliseconds} ms");
} else {
List<int> thisCompileData = util.postProcess(c2);
print("Serialized in ${localStopwatch.elapsedMilliseconds} ms");
if (!isEqual(firstCompileData, thisCompileData)) {
print("=====");
print("=====");
print("=====");
print("Notice diff on $uri ($i)!");
firstCompileData = thisCompileData;
diffs.add(uri);
print("=====");
print("=====");
print("=====");
}
}
if (addDebugBreaks) {
debugger();
}
print("-----");
}
Future<helper.TestIncrementalCompiler> setup() async {
stopwatch.reset();
stopwatch.start();
Uri input = Platform.script.resolve("../../compiler/bin/dart2js.dart");
CompilerOptions options = helper.getOptions();
options.explicitExperimentalFlags[ExperimentalFlag
.alternativeInvalidationStrategy] = useExperimentalInvalidation;
helper.TestIncrementalCompiler compiler =
new helper.TestIncrementalCompiler(options, input);
Component c = await compiler.computeDelta();
print("Compiled dart2js to Component with ${c.libraries.length} libraries "
"in ${stopwatch.elapsedMilliseconds} ms.");
stopwatch.reset();
if (fast) {
libToData = {};
c.libraries.sort((l1, l2) {
return "${l1.fileUri}".compareTo("${l2.fileUri}");
});
c.problemsAsJson?.sort();
c.computeCanonicalNames();
for (Library library in c.libraries) {
library.additionalExports.sort((Reference r1, Reference r2) {
return "${r1.canonicalName}".compareTo("${r2.canonicalName}");
});
library.problemsAsJson?.sort();
List<int> libSerialized =
serializeComponent(c, filter: (l) => l == library);
libToData[library.importUri] = libSerialized;
}
} else {
firstCompileData = util.postProcess(c);
}
print("Serialized in ${stopwatch.elapsedMilliseconds} ms");
stopwatch.reset();
uris = c.uriToSource.values
.map((s) => s != null ? s.importUri : null)
.where((u) => u != null && u.scheme != "dart")
.toSet()
.toList();
c = null;
return compiler;
}
bool isEqual(List<int> a, List<int> b) {
int length = a.length;
if (b.length != length) {
return false;
}
for (int i = 0; i < length; ++i) {
if (a[i] != b[i]) {
return false;
}
}
return true;
}
}